I'm using the LM317(adjustable voltage regulator). I had some problem getting the right output I want and finally I figured it out.
At first, to get the output of certain value I want, I referred the specification document and followed the application schematic that I attached. I put the R1 with 3K and R2 with 300 to get 1.3V output. But it didn't work. And I've struggled to figure out the reason. Finally, my colleague told me I need to use R1 with 240ohm and find out the value of R2 with respect to R1.He also said it is related to minimum load current.
And I did as he said and it's working now. And now I'm trying to figure out about what the minimum load current is and why I need to put 240ohm in R2.
I'm now seeing the inside schematic of LM317(attached), but I can't understand.
Can anybody explain about this?

I'm using the LM317(adjustable voltage regulator). I had some problem getting the right output I want and finally I figured it out.
At first, to get the output of certain value I want, I referred the specification document and followed the application schematic that I attached. I put the R1 with 3K and R2 with 300 to get 1.3V output. But it didn't work. And I've struggled to figure out the reason. Finally, my colleague told me I need to use R1 with 240ohm and find out the value of R2 with respect to R1.He also said it is related to minimum load current.
And I did as he said and it's working now. And now I'm trying to figure out about what the minimum load current is and why I need to put 240ohm in R2.
I'm now seeing the inside schematic of LM317(attached), but I can't understand.
Can anybody explain about this?

Click to expand...

You have things confused,R1 should be 120Ω. That will insure the minimum load current is 10mA. If you eliminate R2 the output should be very close to 1.25V.

Yes, it is related to minimum load--voltage references generally require at least 5mA, and this has an internal 1.25V reference. For better stablility, the 120Ω suggested by k7elp60 is better yet--that brings the min load up to 10mA.

I have starved them successfully down to 3.8mA by using a 330Ω resistor, but this is an out of spec condition and not all devices may work. The ones I tested dropped out of regulation around 3mA.

For an experiment, ground the adjustment pin and connect a 1k pot in series with a 100Ω fixed resistor across the load--increase the resistance until the voltage starts to increase--you are not running at the actual minimum resistance (and current) for this selected device.

You can use a higher value for R1 as long as the current through R1 plus the load current will meet the minimum current requirements for guaranteed regulation; otherwise the circuit may not otherwise meet manufacturer's specifications over temperature.

However, if you use a higher value for R1, in order to get the same Vout, you would also need to increase R2. Increasing R2 causes the current from the ADJ pin, Iadj, to have more of an effect on Vout. Iadj might be anywhere from 50uA to 100uA, but it's usually around 70uA. That doesn't sound like much, but if R2 is 10k, that's a 700mV difference in the output voltage.

Sorry for late reply. I've struggled to figure this out and forgot to visit here. As you explained, I figured out that R1 determines minimum load current 1.25V/R1>5mA.
SgtWookie/ thanks for the idea. I was wondering why Vout is changed when I change the R2. And that's because of that leaking current from ADJ terminal.
Thanks for helping me!